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(American Journal of Pathology. 2003;163:2043-2052.)
© 2003 American Society for Investigative Pathology

Mediation of Transforming Growth Factor-ß₁-Stimulated Matrix Contraction by Fibroblasts

A Role for Connective Tissue Growth Factor in Contractile Scarring

Julie T. Daniels^*, Gregory S. Schultz, Timothy D. Blalock, Qian Garrett^*, Gary R. Grotendorst, Nicholas M. Dean and Peng T. Khaw^*

From the Wound Healing Research Unit,^* Institute of Ophthalmology, London, United Kingdom; the Institute of Wound Research, University of Florida, Gainesville, Florida; the Department of Anatomy and Cell Biology, University of Miami, Miami, Florida; and ISIS Pharmaceuticals, Carlsbad, California

Excessive cell-mediated tissue contraction after injury can lead to morbid contractile scarring in the body. In the eye this can cause blindness because of posterior capsule opacification, proliferative vitroretinopathy, failure of glaucoma filtration surgery, and corneal haze. During repair, transforming growth factor (TGF)-ß and connective tissue growth factor (CTGF) genes are co-ordinately expressed. Although TGF-ß and CTGF stimulate new matrix deposition, their role and regulation during contractile scarring is unknown. In this study, an in vitro model of collagen matrix contraction culminating from tractional forces generated by fibroblasts showed that both TGF-ß₁ and CTGF-stimulated contraction. Using a specific anti-sense oligodeoxynucleotide to CTGF the procontractile activity of TGF-ß₁ was found to be mediated by CTGF. During contraction fibroblasts produced similar levels of matrix metalloproteinases (MMPs)-2 and -9 with TGF-ß₁ or CTGF and a modest increase in MMP-1 with CTGF only (indicated by zymography and enzyme-linked immunosorbent assay). The requirement of MMPs for contraction was demonstrated using a broad-spectrum synthetic inhibitor. This study demonstrates a new function for CTGF in mediating matrix contraction by fibroblasts involving MMPs and suggests a novel regulatory mechanism for TGF-ß-stimulated contraction. Inhibition of CTGF activity or gene transcription could be a suitable target for anti-scarring therapies.

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